JPS60255066A - One-element type inverter - Google Patents

Abstract

PURPOSE:To sufficiently reduce an output voltage as desired by providing a switch element for interrupting a base current at part of ON zone of a main transistor. CONSTITUTION:A one-element type blocking oscillation transistor inverter 3 is connected between output terminals (a) and (b) of a DC power source, and a discharge lamp 5 is connected as a load with the secondary winding 31s of an output transformer 31 of the inverter 3. The inverter 3 has an output transformer 31, a main transistor 32, a soft starting timer 33 and a transistor 34 as a soft starting switch element, and the output can be reduced to desired voltage by controlling the ON time of the transistor 34.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of the Invention) The present invention relates to a single-stone inverter used, for example, in a discharge lamp lighting device.

(Background of the Invention) A conventional discharge lamp lighting device includes an output transformer having a primary winding and a feedback winding, and a main transistor that energizes the primary winding. It is known to light a discharge lamp (lamp) at a high frequency using a base feedback single-stone blocking inverter which drives the main transistor with a base current supplied through a circuit to generate a high frequency output.

In such a discharge lamp lighting device, a so-called soft start is performed in which the inverter output voltage is lower than the lamp ignition voltage until the filament is sufficiently heated when starting the discharge lamp. Sometimes the lamp starts discharging while the filament temperature is still low, causing the southward shortening of the lamp.
- Blocks 11 shots and has C.

By the way, when performing a soft start in a discharge lamp lighting device using the above-mentioned base feedback type 16 blocking inverter, conventionally, as shown in FIG. The output voltage is lowered by increasing the resonant frequency of the LC series resonant circuit for supplying the base current of the inverter, thereby increasing the oscillation frequency of the inverter. For this reason, in a discharge lamp lighting device using a conventional inverter, the voltage at soft start is set to 7.
It was not possible to reduce the temperature to less than about 0%, causing a slight discharge in the lamp, resulting in an insufficient cold star prevention effect. This is because if the oscillation frequency of the inverter is made too high, the transistor 12 will not be able to turn off completely due to the influence of the recovery time (accumulation time) of the base current, and the off time and therefore the on time will become unstable, causing intermittent oscillation. This is because there is a risk of causing

(Object of the Invention) The object of the present invention is to enable a base feedback type single-stone blocking inverter to sufficiently increase the output voltage as desired, and to use it particularly in a discharge lamp lighting device when starting a lamp. The object of the present invention is to enable a soft start to be carried out suitably.

(Structure of the Invention) In order to achieve the above object, the present invention includes an output transformer having a primary winding and a feedback winding, and a main transistor that energizes the seventh winding. In a base feedback single-stone blocking inverter that drives the main transistor with a base current supplied via a series resonant circuit to generate a high-frequency output, a switch that cuts off the base current during a part of the on period of the main transistor. The device is characterized in that the output voltage is lowered by providing an element and controlling the on-time of the main transistor.

(Explanation of Examples) The present invention will be described in detail below with reference to the drawings.

FIG. 1 shows a circuit configuration of a discharge lamp lighting device according to an embodiment of the present invention. The device shown in the figure has an output terminal a of a DC power source (not shown), which includes, for example, an AC power source, a smoothing or non-smoothing rectifier circuit, a battery, or the like.

A single-stone blocking oscillation type transistor inverter 3 is connected between 6 and 6, and the output of this inverter 3! -A discharge lamp (lamp) 5 as a load is connected to the secondary winding 31s of the lance 31.

The inverter 3 includes an output transformer 31 and a main transistor 3.
2. It is equipped with a soft start timer circuit 33 and a transistor 34 as a soft start switch element, which is a feature of the present invention, and is connected to the positive side output terminals a and 1 of the DC power supply.
- output transformer 31 between the transistor 32 and the transistor 32
Connect the primary winding 3111 of this primary winding 3
A deflection capacitor 35 is connected in parallel with 1p, the emitter of the transistor 32 is connected to the negative output terminal (common terminal) of the DC power supply via the diode 36, and the base feedback winding 31 of the output transformer 31 is One end is connected to the negative output terminal of the DC power supply, and the other end is connected to the base of the transistor 32 via a 1G series resonant circuit consisting of an inductor 37, a capacitor ++38, etc.
The emitter and the collector of a transistor 391 of the reset circuit 39 are connected to both ends of the transistor 391, and the base of this transistor 391 is connected to the other end of the base feedback winding 31f of the output transformer 31 via a diode 392 etc. connected to the terminal provided. Further, the transistor 34 has a collector connected to the base of the transistor 32 via a diode 341, an emitter connected to the negative output terminal of the DC power supply, and a base connected to the output terminal of the timer circuit 33. .

Note that the diode 36 is used to protect the transistor 32 from reverse voltage between the base and emitter, and to supply base extraction current in just the right amount.

The reset circuit 39 also controls the capacitor 3 when the transistor 32 is turned off and the base feedback winding voltage becomes negative.
8 is discharged and reset, and by connecting a discharging resistor in parallel with the lead 1 t38, the L
This prevents the Q low of the C resonance circuit and the switching characteristics of the transistor 32 from deteriorating.

Next, the operation of the discharge lamp lighting device constructed as above will be described.

When the DC power is turned on and applied to the inverter 3, a base current is applied to the transistor 32 in the inverter 3 via a starting resistor (not shown), and the transistor 32 is turned on. Thereafter, the transistor 32 is connected to the collector output 1 of the transistor 32 - the primary winding 3 ip of the lance 31 - the base feedback winding 31 [consisting of - capacitor 38 - inductor 37 - base of transistor 32, etc.] collector-base positive @ luck loop. 13J, and primary winding 311)
oscillates due to the inductance of the output transformer 31 and the resonance of the output transformer 35, and each winding 31p, 31s, of the output transformer 31
, 31f to generate a high frequency output.

On the other hand, in the timer circuit 33, after the power is turned on, until the capacitor 331 is charged to a predetermined voltage via the resistor 332, the voltage induced in the feedback winding 31f (drive voltage) is differentiated by the capacitor 333. Transistor 3 at the part exceeding the zener voltage of zener diode 334
A base current flows through 35.

By this transistor 335, the transistor 34 is driven for a certain period 1 within the period in which the slope of the drive voltage is positive, that is, a predetermined time period of the ON period of the transistor 32, and is turned on (), bypassing the base current of the transistor 32. to turn on the transistor 32. Therefore, j
- As shown in FIG. 2, the on-time of the base current of the transistor 32 is controlled to be shorter, and the oscillation frequency of the inverter 3 is increased, and the output voltage is lowered.

Therefore, the induced voltage of the secondary winding 31s of the output transformer 31 applied between both electrodes of the lamp 5 at this time is
If the ignition voltage is set lower than the ignition voltage, the lamp 5 can be soft-started by heating the filament using the high frequency output from the inverter 3 without discharging the lamp 5.

In this way, after the power is turned on, the time has elapsed for the filament of the lamp 5 to be sufficiently preheated, and the terminal voltage of the capacitor 331 of the timer circuit 33 reaches the zener diode.
Beyond the U boo voltage of , transistor 335 has a positive voltage applied to its base. Therefore, the transistor 33
5. Therefore, the transistor 34 is always in the A off state, and the inverter 3 is in the state without the transistor 34, that is, in the normal state, and the oscillation frequency is lower than that at the -C1 soft start, and the output J current is higher.

As a result, a high frequency voltage sufficiently higher than that of the ignition type LF is applied between both electrodes of the sufficiently preheated lamp 5, and the lamp 5 starts lighting.

J3, :I capacitor 401 and zener diode 4
The circuit 40 consisting of 02 is a turn-on switching improvement circuit for reducing the switching speed of the transistor 32, especially when it is turned on, in the normal state.
be. In other words, in the inverter 3, the transistor 3
2] Rector-J Mitsuta mold pressure VCO swings either positive or negative with Ov as a reference, whereas the drive voltage has a waveform that is almost the same as voltage Vce, but the average value is Ov. can swing both positive and negative. Therefore, before the collector-emitter type 11Vce crosses zero, the drive voltage reaches zero and stops, and there is a section in which the base voltage of the transistor 32 becomes positive, and in this section, the base current flows through the transistor 32. The current H: Vce is not turned on even before it crosses, and one energy of the resonant circuit of the capacitor 35 and the output transformer primary winding 31p is transferred to the transistor 32.
As a result, the switching loss when the transistor 32 is turned on increases.

The turn-on switching improvement circuit 40 drives the transistor 34 at a portion of the voltage obtained by differentiating the dry INB with the capacitor 401 that exceeds the Zener voltage of the Zener diode 402, and increases the collector-emitter voltage vCe.
The drive voltage is zero (L) before the rocker crosses.
Turn-on switching loss of the transistor 32 is reduced by turning off the transistor 32 during the period when the voltage becomes a positive voltage. (Scope of application of the invention) The present invention is not limited to the above-mentioned embodiments, and may be modified as appropriate without departing from the spirit of the present invention.
can do. For example, the inverter 3 rectifies a part of the output horn and stores it in a capacitor, and supplies it to the inverter 3 as auxiliary power while the output of the rectifier circuit that non-smoothly rectifies the AC power source is lower than the voltage across the capacitor. The present invention may be applied to a so-called auxiliary power supply type inverter, and in this case, the diode 35 can be omitted. Also,
Such inverters often have -C
There are safety circuits that turn off and protect the main transistor, surge voltage protection circuits that detect the occurrence of surge voltage in the power supply line, etc., and turn off and protect the main transistor (for example, see Japanese Patent Application No. 157159/1982). Although it is provided,
The soft start switching element (transistor 34) described in -h can also be used as a main transistor cutoff switching element for these circuits.

As described above, according to the present invention, a switch element is provided that cuts off the base current in a part of the on period of the main transistor of the inverter, and by controlling the on time of the E transistor, the oscillation frequency of the inverter is increased and the output Since the voltage is lowered, the influence of the base recovery time of the main transistor is small, and the oscillation frequency can be sufficiently increased and the output voltage can be sufficiently lowered, for example, to about 33% of the normal level. Therefore, when this inverter is used in a discharge lamp lighting device, the voltage at soft start can be arbitrarily set between 33% and 100%. That is, it is possible to realize a soft start circuit that does not slightly discharge the lamp, and the lamp life can be extended compared to the conventional soft start.

[Brief explanation of the drawing]

FIG. 1 is a partial circuit diagram of a discharge lamp lighting device according to an embodiment of the present invention, FIG. 2 is a voltage or current waveform diagram for each discharge lamp lighting device of FIG. 1 is a partial circuit diagram of a discharge lamp lighting device using a type inverter. 3...Inverter, 31...Output 1->ance, 3
1[...base feedback winding, 32...main transistor, 33...timer circuit, 37...inductor, 3
8... Capacitor, 34... Transistor, 40
...Turn-on switching loss reduction circuit, 5...
discharge lamp. Patent Applicant: Toshiba Electric Corporation I Corporation Sugi Agent Patent Attorney: Tatsuo Ito Attorney: Tetsuya Ito No. 2 N No. 3 +”'3

Claims (1)

[Claims] 1. An output transformer having a primary winding and a feedback winding, and a main transistor that energizes the primary winding. In a base feedback single-stone blocking inverter that drives a transistor to generate a high-frequency output, a switch element is provided to cut off the base current during a part of the on period of the main transistor to control the on time of the main transistor. A one-stone inverter characterized in that the output voltage is lowered by doing so. 2. The single-stone inverter according to claim 1, which supplies the high-frequency output to a discharge lamp and lowers the output voltage to perform a soft start when starting the discharge lamp. 3. The one-stone type % type % according to claim 1, wherein the switch element is commonly used as a switch element for cutting off the main transistor of a turn-on switching improvement circuit, a safety circuit, and a surge voltage protection circuit.